Long non-coding PRNCR1 regulates the proliferation and apoptosis of synoviocytes in osteoarthritis by sponging miR-377-3p

Background LncRNA PRNCR1 has been reported to be involved in LPS-induced inflammation, which contributes to osteoarthritis (OA). We predicted that miR-377-3p could bind to PRNCR1.MiR-377-3p can suppress OA development. We therefore analyzed the potential interaction between them in OA. Methods Expression of miR-377-3p and PRNCR1 in both OA (n = 40) and control (n = 40) samples were analyzed by RT-qPCR. MiR-377-3p or PRNCR1 were overexpressed in synoviocytes to explore their potential interaction. The subcellular location of PRNCR1 was analyzed by nuclear fractionation assay. The direct interaction between miR-377-3p and PRNCR1 was analyzed by RNA-pull down assay. The proliferation and apoptosis of synoviocytes were analyzed by BrdU and apoptosis assay, respectively. Results PRNCR1 was overexpressed in OA, while miR-377-3p was downexpressed in OA. PRNCR1 was detected in the cytoplasm and directly interacted with miR-377-3p. Interestingly, overexpression of PRNCR1 and miR-377-3p showed no regulatory role in each other’s expression. LPS treatment increased PRNCR1 expression and decreased miR-377-3p expression. PRNCR1 overexpression decreased LPS-induced synoviocyte proliferation and increased LPS-induced synoviocyte apoptosis. MiR-377-3p played opposite roles in cell proliferation and apoptosis. Moreover, PRNCR1 suppressed the role of miR-377-3p. Conclusions Therefore, PRNCR1 is was detected in cytoplasm and regulates synoviocyte proliferation and apoptosis in OA by sponging miR-377-3p. Supplementary Information The online version contains supplementary material available at 10.1186/s13018-022-03035-2.


Introduction
Osteoarthritis (OA), the most common type of chronic joint conditions, is the degeneration of joint tissues, including synovium, articular cartilage, and subchondral bone [1,2]. Almost all populations are experiencing a high incidence of OA. It is estimated that more than 10% of people over 60 years are suffering from OA [3]. With the obesity epidemic and the growth of the aging population, the incidence of OA is estimated to continuously increase for the long term [4]. Arthritis is usually treated with joint replacement surgery and antiinflammatory drugs, although anti-inflammatory drugs can have some side effects [5]. The development of OA requires a series of molecular and cellular processes [6,7]. A considerable molecular factors have shown critical roles in OA [8]. Increased understating of the molecular alterations involved in OA will facilitate the development of novel targeted therapies by affecting gene expression to improve OA [9]. At present, the major challenge of the development of OA-targeted therapy is the lack of safe Open Access and effective targets [10]. Alterations in the expression of lncRNAs, which lack the information of protein-coding but affect protein accumulation to regulate cellular processes, are frequently observed in OA patients [11]. Therefore, certain lncRNAs with critical roles in OA may be targeted to treat OA. PRNCR1 has been reported to promote LPS-induced inflammation [12], which contributes to osteoarthritis (OA) [13]. Besides that lncRNA PRNCR1 was reported to contribute to osteolysis via regulating CXCR4 expression [14] and osteogenic differentiation in osteolysis [15]. We hypothesized that PRNCR1 could interact with miR-377-3p, which suppresses OA development via alleviating chondrocyte apoptosis and cartilage degradation [16], and analyzed the potential interaction between PRNCR1 and miR-377-3p and their roles in OA.

Articular cartilage tissues
This study included 40 OA articular cartilage tissues and 40 normal articular cartilage tissues from 40 OA patients and patients with femoral neck fracture (OA or rheumatic arthritis was not diagnosed), respectively. All patients were enrolled at the Affiliated Hospital of Southwest Medical University from January 2019 and January 2021. All OA patients were diagnosed with radiography following the criteria of the American College of Rheumatology. All participants signed informed consent. The clinical data of both groups are listed in Additional file 1: Table S1. The study was approved by the Ethical Committee of the School of Pharmacy, Southwest Medical University (No. SP536, 201901).

RNA sample preparations
RNAs were isolated using Direct-zol (ZYMO RESEARCH) and treated with DNase I to remove genomic DNAs. RNA integrity was analyzed using Agilent 2100 Bioanalyzer (Agilent Technologies, USA). RNA preparations were repeated if the quality was low [19].

RT-qPCRs
cDNAs were prepared from 2 μg total RNAs through reverse transcriptions. PRNCR1 and miR-377-3p expression was quantified using qPCRs with 18S rRNA as the endogenous control. The method used for Ct value analysis was 2 −ΔΔCt [20].

RNA interaction analysis
The binding of miR-377-3p to PRNCR1 was predicted using the online program IntaRNA 2.0 (default parameters). To confirm the interaction, a pull-down assay was carried out with biotin-ligated miR-377-3p (Bio-miR-377-3p) or negative control (NC) miRNA (Bio-NC). Bio-miR-377-3p and Bio-NC were transfected into OA synoviocytes, and cells were lysed at 48 h post-transfection. RNA pull-down was performed with streptavidin agarose magnetic beads (Life Technologie), and PRNCR1 expression in both samples was quantified after isolations of total RNA [21].

Nuclear fractionation assay
OA synoviocytes were subjected to the preparations of both nuclear (N) and cytoplasm (C) samples. Fractions of both N and C samples were separated by centrifugation at 2500 g at 4 °C for 15 min. After that, total RNA was extracted from both samples, and RT-PCRs were performed to analyze PRNCR1 expression in both fractions. EB-stained gels were observed with MyECL image (Bio-Rad) and photographed [22].

BrdU assay
BrdU incorporation (cell proliferation) assay was performed according to the manufacture's protocol. Cells were seeded onto a 96-well plate with 3000 cells per well. After the addition of BrdU (10 µM), cells were cultured for another 24 h. After fixation and anti-BrdUantibody incubation, peroxidase substrate incubation was performed for 1 h, and optical density (OD) at 450 nm was measured [23].

Cell apoptosis assay
OA synoviocytes were seeded onto a 96-well plate with 5000 cells per well at 48 h post-transfections. After that, cells were treated with 15 μg/ml LPS was for 24 h. After ice-cold PBS washing, cells were resuspended in annexin binding buffer (0.5 ml) and stained with Annexin V FITC and PI (Beyotime) for 15 min in the dark. Cell apoptosis was then analyzed using flow cytometry [24].

Statistical analysis
Differences between two independent groups and among multiple independent groups were analyzed by unpaired t test and ANOVA Tukey's test, respectively. p < 0.05 was considered statistically significant.

Discussion
The study analyzed the involvement of PRNCR1 and miR-377-3p in OA and their interactions in OA synoviocytes and, for the first time, showed the differential expression of PRNCR1 and miR-377-3p in OA and revealed the role of PRNCR1 and miR-377-3p in the proliferation and apoptosis of OA synoviocytes. Previous studies of PRNCR1 have mainly focused on its role in cancers [25,26]. A recent study revealed the role of PRNCR1 in increasing pulmonary vascular endothelial cell injury induced by LPS via interacting with and cytoplasm (C) fractions from OA synoviocytes was analyzed using nuclear fractionation assay (A). The binding of miR-377-3p to PRNCR1 was predicted using IntaRNA 2.0 (B) and confirmed using RNA pull-down assays using biotin-ligated miR-377-3p (Bio-miR-377-3p) or negative control (NC) miRNA (Bio-NC) (C). **p < 0.01 miR-330-5p/TLR4 axis [12]. It has been well-established that LPS-induced inflammation is a critical contributor to the development of OA. Therefore, we speculated on the involvement of PRNCR1 in OA. The present study showed PRNCR1 was overexpressed in OA. During the development of OA, synoviocytes produce IL-1β, a major pathogenic cytokine in OA that can promote inflammatory responses [27]. The study showed that LPS treatment enhanced PRNCR1 expression, and PRNCR1 overexpression suppressed OA synoviocyte proliferation and increased OA synoviocyte apoptosis and IL-1β expression level in OA induced by LPS. Therefore, PRNCR1 overexpression may promote OA progression by promoting inflammatory responses. Our data and the previous study [12] suggested that PRNCR1 may play opposite roles in LPS-induced cell apoptosis in different cell types. Interestingly, Tu et al. showed that miR-377-3p could suppress chondrocyte apoptosis induced by IL-1β in OA [16]. This study showed that miR-377-3p increased OA synoviocyte proliferation and decreased OA synoviocyte apoptosis induced by LPS, suggesting its pro-inflammatory roles in OA. Therefore, depending on different cell types, miRNA-377-3p may play different roles in different cells involved in OA.
It has been well-established that mature miRNAs are located in the cytoplasm [28]. The study revealed that PRNCR1 was detected in cytoplasm and could directly interact with mature miR-377-3p. However, PRNCR1 and miR-377-3p showed no significant effects on the expression of each other. Interestingly, PRNCR1 suppressed the role of miR-337-3p in cell proliferation, apoptosis, and IL-1β expression. It has been well-established that the role of miRNA sponges, or competing RNAs is to suppress the role of miRNAs but may not affect their expression [29,30]. Therefore, PRNCR1 may sponge miR-377-3p to suppress its role in OA. Our results should be further confirmed in OA animal models in the future. The function of miRNAs in OA has been extensively analyzed in previous studies and some miRNAs have been characterized as potential targets to treat OA [31][32][33]. Therefore, analyzing the interaction between lncRNAs and miRNAs may provide a novel way to study the role of miRNAs in cancer biology, therefor providing novel insights to the regulation of the role miRNAs. Role of PRNCR1 and miR-377-3p in the proliferation and apoptosis of OA synoviocytes. OA synoviocytes were treated with 0, 3, 9, 12, and 15 μg/ml LPS (Sigma-Aldrich) for 48 h, and PRNCR1 expression (A) and miR-377-3p expression (B) was analyzed using RT-qPCR after RNA isolation. The role of PRNCR1 and miR-377-3p in regulating the proliferation (C) and apoptosis of synoviocytes induced by LPS (D) were analyzed using cell proliferation and apoptosis analyses. IL-1β expression level was analyzed using qRT-PCR (E). *p < 0.05